Image processing system and ordering system

ABSTRACT

The image processing system identifies a subject person corresponding to accompanying information based on consistency between the accompanying information and subject information and carries out image composition associating the accompanying information with a position of the subject person in a corresponding photographed image. The ordering system includes a first information apparatus having an image displaying unit and a second information apparatus capable of transmitting order data at optional timing desired by a customer to the first information apparatus with respect to an image displayed on the image displaying unit. The first information apparatus adds predetermined data relating to the displayed image corresponding to the optional timing to the order data to prepare goods order data and transmits the goods order data to a third information apparatus in a predetermined destination of transmission.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a Divisional of co-pending application Ser. No.09/982,824, filed on Oct. 22, 2001, which claims priority to JapanPatent Application No. 2000-320382, filed on Oct. 20, 20000 and JapanPatent Application No. 2001-023030 filed on Jan. 31, 2001, the entirecontents of which are hereby incorporated by reference.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to an image processing system and anordering system and, in particular, to an image processing system forcompositing additional information concerning a subject with respect toa photographed image to output a composite image and an ordering systemwith which a customer places an order for goods while watching atelevision program, using a personal computer, playing a game, orwatching a movie or the like, or again, from a reserved scene, or placesan order for a print of a displayed scene or for a recording medium onwhich image data on the scene is recorded. (In the present invention, arecording medium for recording image data is to be simply referred to as“recording medium” or “image recording medium”).

2. Description of the Related Art

Conventionally, an image photographed on a photograph film such as anegative film and a reversal film (hereinafter referred to as film) hasbeen printed on a photosensitive material (printing paper) by so-calleddirect exposure (analog exposure) for projecting an image on a film ontoa photosensitive material and subjecting the material to planarexposure.

On the other hand, in recent years, digital photoprinter has been put topractical use as a printing device utilizing digital exposure, that is,an image processing system. This image processing system is forphotoelectrically reading an image of a photographed frame that isphotographed by a conventional camera and recorded on a photograph filmto obtain digital image data on the read image, or obtaining digitalimage data on a photographed frame photographed by a digital camera,then applying various kinds of image processing to the digital imagedata to have image data for recording, subjecting a photosensitivematerial to scan exposure with the recording light, which is modulatedaccording to the image data for recording, so as to record an image(latent image) on the material, and preparing a (finished) photographprint.

With the digital photoprinter, an image is turned into digital imagedata and exposing conditions for printing can be determined by imagedata processing. Thus, correction of washed-out highlights and dullshadows of an image due to backlight, strobe photographing or the like,sharpness processing, correction of color failure and density failure,correction of under exposure and over exposure, correction of marginalluminosity deterioration, or the like can be preferably performed toobtain a high-grade photograph print that has been unable to be obtainedwith the conventional direct exposure. Moreover, composition of aplurality of images and division of an image as well as composition ofcharacters, or the like can be performed by the image data processing.Thus, it is possible to output a photograph print that isedited/processed at will according to use, for example, compositingadditional information or the like relating to a photographing date andtime, a photographing situation and a subject.

In addition, since the digital photoprinter not only can output an imageas a photograph print but also can supply image data to a computer orthe like or save image data in an image recording medium such as afloppy disk, the image data can be utilized for a variety of uses otherthan a photograph.

However, conventionally, the above-mentioned composition of additionalinformation with a photographed image has to rely on manual editing byan operator and there is no service for automatically compositinginformation concerning a subject with a photographed image. Thus, itcauses troubles to composite additional information concerning asubject, a message or the like with a photographed image. Particularlywhen a plurality of subject persons are in one image, if messages or thelike are added to respective subject persons, it is hard to understandwhich message is to be added to whom, which makes composition work verycomplicated.

On the other hand, conventionally, when one scene of a televisionprogram that is being broadcast or one scene on the screen of atelevision which is reproducing images recorded on a videotape is to beprinted, a video printer for home use is used. However, since such avideo printer for home use has a low resolution and image datatransmitted by a television broadcast suffers from a deteriorated imagequality due to an effect of noises during transmission and various kindsof processing in the video printer, a high-quality print cannot beexpected. Moreover, print sizes are fixed with a largest size on theorder of a postcard.

In order to address this problem, the applicant of this application hasalready proposed in JP 10-171027 A a method and a system for printing animage that makes it possible to print a scene of a television broadcastor the like with a large size and high quality.

This utilizes frame identification information for identifying eachimage frame associating it with each image frame of a televisionbroadcast. If a customer wishes to print an image while the customer iswatching each scene on a television screen, the customer reads out frameidentification information of the image frame by a personal computer andtransfers this frame identification information and ordereridentification information, which is registered in advance, to a printorder receiver through data communicating means such as a personalcomputer to place an order for printing. The print order receiverspecifies a frame to be printed based on the transmitted frameidentification information and reads corresponding original image dataof high resolution out of an image database to print the image.

In addition, there is so-called television shopping as an orderingmethod of general goods. With the television shopping, a customer seesgoods information transmitted by a television broadcast and, if there isgoods that the customer wishes to buy, places an order, for example, bytelephone.

With the method and the system disclosed in the above-mentioned Japanesepatent application, since a customer can order printing by transmittingonly frame identification information and orderer identificationinformation by a personal computer, printing can be ordered simply. Inaddition, since an image is printed using original image data, a largeand high-quality print can be obtained. However, since all images arenot always saved in a database, an image cannot be printed even if anorder for the image is placed in some cases. In addition, theabove-mentioned conventional television shopping requires time and laborbecause a customer has to place an order separately using means such asa telephone after watching the television.

SUMMARY OF THE INVENTION

The present invention has been devised in view of the above and otherdrawbacks, and it is a first object of the present invention to providean image processing system that automatically composites informationconcerning subject persons with a photographed image even if a pluralityof subject persons exist, thereby allowing a customer to easily obtainan image in which additional information of the photographed image (thesubject) is composited with the photographed image and to convenientlyobtain information of a subject person or arrange photographs in order.

It is a second object of the present invention to provide an orderingsystem for allowing a customer, while watching television or the like,to easily order printing of an image of a scene on a television screenor the like at an optional or desired timing, or again, at a presettiming and to order goods relating to the image or general goods.

In order to attain the first object described above, the first aspect ofthe present invention provides an image processing system, including: animage inputting unit for inputting an image of a subject; an imageprocessing unit for applying image processing to the image inputted bythe image inputting unit; and an image outputting unit for outputtingthe image to which the image processing is applied by the imageprocessing unit; further comprising: an accompanying informationobtaining unit for obtaining accompanying information concerning asubject person of the image; a subject information obtaining unit forobtaining subject information concerning the subject person from theinputted mage; a person identifying unit for identifying the subjectperson corresponding to the accompanying information based onconsistency between the accompanying information and the subjectinformation; and an image compositing unit for carrying out imagecomposition associating the accompanying information with a position ofthe subject person in a corresponding photographed image based on aresult of identification by the person identifying unit.

Preferably, a camera for photographing the subject obtains informationrecorded in a predetermined recording medium by communicating with aportable information apparatus held by the subject person or with anapparatus for collectively managing accompanying information for eachsubject person at the time of photographing, thereby obtaining theaccompanying information, or the accompanying information is directlyobtained from the apparatus for collectively managing accompanyinginformation.

Preferably, all of the image processing unit, the image outputting unit,the accompanying information obtaining unit, the subject informationobtaining unit, the person identifying unit and the image compositingunit are mounted with a camera, the image processing system is composedof the camera, and accompanying information concerning the subjectperson in a photographed image is composited with the photographed imagein the camera.

Preferably, the camera communicates with a portable informationapparatus held by a subject person or with an apparatus for collectivelymanaging accompanying information for each subject person at the time ofphotographing, thereby obtaining accompanying information concerning thesubject person.

Preferably, the camera further includes a voice obtaining unit, obtainsvoices of the subject person with the voice obtaining unit at the timeof photographing and uses the voices in carrying out the personidentification.

Preferably, the accompanying information includes a face image of asubject person corresponding to the accompanying information and theperson identifying unit carries out identification of the subject personusing the face image.

Preferably, the image outputting unit outputs an image in which theaccompanying information is composited by at least one of a method ofoutputting the image as a print, a method of recording the image in animage file, a method of displaying the image on an image displayingdevice and a method of transferring the image by communication.

In order to attain the second object described above, the first mode ofthe second aspect of the present invention provides an ordering systemcomprising: a first information apparatus having an image displayingunit; and a second information apparatus capable of transmitting orderdata at optional timing desired by a customer to the first informationapparatus with respect to an image displayed on the image displayingunit of the first information apparatus, wherein the first informationapparatus having received the order data adds predetermined datarelating to the displayed image corresponding to the optional timing tothe order data to prepare goods order data and transmits the goods orderdata to a third information apparatus in a predetermined destination oftransmission.

Preferably, the order data is orderer identification information ororder indication information for specifically indicating the ordereridentification information and contents of an order, information on theoptional timing to be obtained by the first information apparatus istime information in the second information apparatus accompanying theorder data or receiving timing itself of the order data in the firstinformation apparatus, and the predetermined data is image data of thedisplayed image corresponding to the optional timing or goodscharacteristic information relating the displayed image.

Preferably, the order data includes print order data for ordering aprint of an image displayed on the image displaying unit of the firstinformation apparatus at the optional timing, the predetermined dataincludes image data of an image displayed on the image displaying unitof the first information apparatus at the optional timing, compressedimage data or processed image data thereof and information relatedthereto, the goods order data includes print order data for ordering aprint of an image displayed on the image displaying unit of the firstinformation apparatus, and the first information apparatus transmits theprint order data to the predetermined destination of transmission andthe predetermined destination of transmission applies print processingto the print order data or records and accumulates the print order datain a predetermined image data accumulating device.

Preferably, the order data includes recording medium order data forordering a recording medium in which data corresponding to an imagedisplayed on the image displaying unit of the first informationapparatus at the optional timing is recorded, the predetermined dataincludes data corresponding to the displayed image at the optionaltiming and information related thereto, the goods order data includesrecording medium order data for ordering a recording medium in whichdata corresponding to the displayed image is recorded, and the firstinformation apparatus transmits the recording medium order data to thepredetermined destination of transmission and the predetermineddestination of transmission applies processing for recording therecording medium order data in the recording medium or records andaccumulates the recording medium order data in a predetermined imagedata accumulating device.

In order to attain the second object described above, the second mode ofthe second aspect of the present invention provides an ordering systemcomprising: a first information apparatus having an image displayingunit; and a second information apparatus capable of transmitting orderdata at optional timing desired by a customer to the first informationapparatus with respect to an image displayed on the image displayingunit of the first information apparatus, wherein the second informationapparatus transmits data requiring information to the first informationapparatus as the order data at the optional timing, the firstinformation apparatus having received the data requiring informationreturns predetermined data relating to the displayed image at theoptional timing to the second information apparatus and/or a fourthinformation apparatus in a destination of communication designated bythe customer, and the second information apparatus and/or the fourthinformation apparatus reproduces and edits the predetermined datarelating to the received displayed image to prepare goods order data andtransmits the goods order data to a third information apparatus in apredetermined destination of transmission via the first informationapparatus or directly.

Preferably, the predetermined data relating to the displayed image is atleast one of image data of the displayed image and information relatedthereto.

Preferably, the related information is goods related information orinformation for inputting an order, and the goods order data is editeddata of the information for inputting an order and ordereridentification information.

Preferably, the data requiring information includes information on thefourth information apparatus in the destination of communicationdesignated by the customer.

Preferably, the data requiring information includes order data fordesignating the desired optional timing and information on the fourthinformation apparatus in at least one destination of communicationdesignated by the customer and the first information apparatusdistributes the predetermined data relating to the displayed image tothe fourth information apparatus in the at least one destination ofcommunication via a communication network.

Preferably, the order data is an image data requiring signal forrequiring transfer of an image displayed on the image displaying meansof the first information apparatus to the second information apparatus,the first information apparatus having received the image data requiringsignal returns image data of the displayed image at the optional timingand compressed image data or processed image data thereof to the secondinformation apparatus together with the related information, and thesecond information apparatus transmits the image data, the compressedimage data or processed image data thereof and information relatedthereto to the predetermined destination of transmission as print orderdata via the first information apparatus or directly and thepredetermined destination of transmission applies print processing tothe print order data or records and accumulates the print order data ina predetermined image data accumulating device.

Preferably, the order data is an image data requiring signal forrequiring transfer of an image displayed on the image displaying meansof the first information apparatus to the second information apparatus,the first information apparatus having received the image data requiringsignal returns data corresponding to the displayed image at the optionaltiming to the second information apparatus together with the relatedinformation, and the second information apparatus transmits the datacorresponding to the displayed image and the related information to thepredetermined destination of transmission as recording medium order datavia the first information apparatus or directly and the predetermineddestination of transmission applies processing for recording therecording medium order data in the recording medium or records andaccumulates the recording medium order data in a predetermined imagedata accumulating device.

In the first and second modes of the second aspect of the presentinvention, it is preferable that the predetermined destination oftransmission of the goods order data is set in the second informationapparatus or set in the first information apparatus or set according tothe predetermined data.

Preferably, the order data is transmitted from the second informationapparatus to the first information apparatus by the customer at thedesired optional timing while watching the displayed image.

Preferably, the order data is transmitted in advance from the secondinformation apparatus to the first information apparatus by the customeras reservation information relating to the displayed image of the firstinformation apparatus, the first information apparatus regards a pointin time when the displayed image reserved by the reservation informationis displayed on the image displaying means as the desired optionaltiming, automatically obtains predetermined data relating to thedisplayed image of the image displaying means at the optional timing andautomatically transmits the predetermined data to the second informationapparatus, and the second information apparatus automatically obtainsthe predetermined data.

Preferably, the print order data includes print instruction informationor data recording instruction information.

Preferably, the data corresponding to the displayed image includes imagedata of the displayed image at the optional timing and compressed imagedata or processed image data thereof.

Preferably, the data corresponding to the displayed image is at leastone of moving image data, voice data, text data and program datarelating to the displayed image at the optional timing.

Preferably, the recording medium order data includes information oninstruction for recording in the recording medium or information oninstruction for recording in the predetermined image data accumulatingdevice.

Preferably, the related information includes at least one of still imagedata, moving image data, voice data, text data and program data and isprinted in association with the image data and the data corresponding tothe displayed image and outputted to a computer readable recordingmedium in association with the image data or the data corresponding tothe displayed image.

Preferably, the related information includes edition information and/orprocessing information of the image data or the data corresponding tothe displayed image.

Preferably, when the first information apparatus is a televisionreceiver and predetermined data relating to the displayed image at theoptional timing includes image data of the displayed image of thetelevision receiver, image data of an image received by the televisionreceiver and displayed thereon and original image data in a broadcastingstation transmitting the image data to the television receiver areproperly used as the image data of the displayed image of the televisionreceiver.

In order to attain the second object described above, the third mode ofthe second aspect of the present invention provides an ordering systemcomprising: a first information apparatus having an image photographingfunction; and a second information apparatus for transmitting subjectrelated information in image photographing to the first informationapparatus, wherein the first information apparatus transmits subjectrelated information transmitted from the second information apparatusand photographed image data to a predetermined destination oftransmission as print order data, and the predetermined destination oftransmission composites the subject related information with thephotographed image or prints the subject related information on the rearside of the photographed image to prepare a print or associates thesubject related information with the photographed image to output themto a computer readable recording medium as image data, character data orvoice data.

In order to attain the second object described above, the fourth mode ofthe second aspect of the present invention provides an ordering systemcomprising: a first information apparatus having an image photographingfunction, and a second information apparatus for receiving photographedimage data and order data transmitted from the first informationapparatus, wherein the second information apparatus adds subject relatedinformation to photographed image data and order data transmitted fromthe first information apparatus to transmit them to a predetermineddestination of transmission, and the predetermined destination oftransmission composites the subject related information with thephotographed image or prints the subject related information on the rearside of the photographed image to prepare a print or associates thesubject related information with the photographed image to output themto a computer readable recording medium as image data, character data orvoice data.

In the first, second, third and fourth modes of the second aspect of thepresent invention, it is preferable that the goods order data of thecustomer is temporarily accumulated, and information for confirmationwith order transmitting route information added to the goods order datais transmitted to the destination of communication of the customer foreach order item based on orderer identification information.

BRIEF DESCRIPTION OF THE DRAWINGS

In the accompanying drawings:

FIG. 1 is a block diagram schematically showing a digital photoprinterforming an image processing system in accordance with a first embodimentof a first aspect of the present invention;

FIG. 2 is a block diagram schematically showing a configuration of animage processing device in accordance with the first embodiment of thefirst aspect of the present invention;

FIG. 3 conceptually illustrates actions of the first embodiment of thefirst aspect of the present invention;

FIG. 4 is a block diagram schematically showing a camera forming animage processing system in accordance with a second embodiment of thefirst aspect of the present invention;

FIG. 5 illustrates a schematic configuration of an ordering system inaccordance with a first embodiment of a second aspect of the presentinvention;

FIG. 6 illustrates a schematic configuration of an ordering system inaccordance with a second embodiment of the second aspect of the presentinvention;

FIG. 7 illustrates a schematic configuration of an ordering system inaccordance with a third embodiment of the second aspect of the presentinvention;

FIG. 8 illustrates a schematic configuration of an ordering system inaccordance with a fourth embodiment of the second aspect of the presentinvention;

FIG. 9 illustrates a schematic configuration of an ordering system inaccordance with a fifth embodiment of the second aspect of the presentinvention;

FIG. 10 illustrates a schematic configuration of an ordering system inaccordance with a sixth embodiment of the second aspect of the presentinvention; and

FIG. 11 illustrates a schematic configuration of an ordering system inaccordance with a seventh embodiment of the second aspect of the presentinvention.

FIG. 12 illustrates a schematic configuration of an ordering system inaccordance with an eighth embodiment of the second aspect of the presentinvention.

FIG. 13 illustrates a schematic configuration of an ordering system inaccordance with a ninth embodiment of the second aspect of the presentinvention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

An image processing system and an ordering system in accordance with thepresent invention will be hereinafter described based on preferredembodiments shown in the attached drawings.

First, the image processing system in accordance with the presentinvention will be described with reference to FIGS. 1 to 4.

FIG. 1 is a block diagram schematically showing a digital photoprinterforming an image processing system in accordance with a first embodimentof the present invention.

A digital photoprinter 10 shown in FIG. 1 basically includes a scanner(image inputting unit) 12 for photoelectrically reading an imagephotographed on a film F, an image processing device 14 for processingread image data to make it image data for outputting and, also, forperforming an operation, a control and the like of the entire digitalphotoprinter 10, and a printer (image outputting unit) 16 for exposing aphotosensitive material (printing paper) with a light beam, which ismodulated according to the image data outputted from the imageprocessing device 14, to record thereon the image and subjecting thephotosensitive material to development to output a (finished) print.

In addition, an operation system 18 having a keyboard 18 a and a mouse18 b for entering or setting various conditions, selecting orinstructing processing, instructing color/density correction or thelike, and a display 20 for displaying an image read by the scanner 12,various operational instructions, a screen for setting/registeringconditions or the like are connected to the image processing device 14.

The scanner 12 is a device for photoelectrically reading an imagephotographed on the film F or the like and includes a light source 22, avariable diaphragm 24, a diffusion box 28 for making reading lightincident on the film F uniform in the surface direction of the film F,an imaging lens unit 32, an image sensor 34 having a line CCD sensorcorresponding to image reading for respective colors of R (red), G(green) and B (blue), an amplifier 36 and an A/D (analog/digital)converter 38.

In addition, in the print system 10, special purpose carriers 30attachable to the main body of the scanner 12 are prepared according toa type and a size of a film such as a film for the Advanced Photo system(hereinafter referred to simply as APS) and a negative (or reversal)film of the 135 size, a form of a film such as strips and slides, andthe like, whereby the print system 10 can cope with various kinds offilms and processing by exchanging the carriers 30. An image that isphotographed on the film F and served for preparation of a print (or theframe of the film containing such an image) is conveyed to apredetermined reading position by the carrier 30.

In reading an image photographed on the film F on such a scanner 12,reading light, which is emitted from the light source 22 and whoseamount is adjusted by the variable diaphragm 24, is incident on the filmF, which is positioned in a predetermined reading position by thecarrier 30, and passes through the film F, whereby projecting lightbearing an image photographed on the film F is obtained.

The carrier 30 includes a conveying roller pair for conveying the film Fto a predetermined reading position and a mask having a slit forregulating the projecting light for the film F to a predetermined slitshape in the same direction as the direction of the line CCD sensor(main scanning direction). The film F is positioned in the readingposition by the carrier 30 and has reading light incident thereon whilebeing conveyed in the longitudinal direction of the film F coincidingwith the auxiliary scanning direction perpendicular to the main scanningdirection. Consequently, the film F is two-dimensionally slit-scanned bythe slit extending in the main scanning direction and an image of eachframe photographed on the film F is read.

A magnetic recording medium is formed on an APS film and a magnetic headfor recording/reading information on this magnetic recording medium isdisposed in the carrier 30 corresponding to the APS film (cartridge).The information recorded on the magnetic recording medium of the film Fis read by this magnetic head and sent to the image processing device 14or the like. Or again, information transferred from the image processingdevice 14 or the like to the carrier 30 is recorded on the magneticrecording medium of the film F by the magnetic head.

In addition, a code reader for reading a bar code such as a DX code, anextended DX code and an FNS code to be optically recorded on the film For various kinds of information optically recorded on the film F isdisposed on the carrier 30. Various kinds of information read by thiscode reader is sent to the image processing device 14.

As described above, reading light turns into projecting light that bearsan image after passing through the film F held by the carrier 30. Thisprojecting light is focused on a light receiving surface of the imagesensor 34 by the imaging lens unit 32.

The image sensor 34 is a so-called three-line color CCD sensor havingthree line CCD sensors for reading an R image, a G image and a B image,respectively, and extends in the main scanning direction. Projectinglight for the film F is separated into three primary colors of R, G andB and photoelectrically read by the image sensor 34.

An output signal of the image sensor 34 is amplified by the amplifier36, converted to a digital signal by the A/D converter 38 and sent tothe image processing device 14.

The scanner 12 reads an image photographed on the film F by two imagereadings, namely pre-scan for reading an image with a low resolution andfine-scan for obtaining image data of an output image.

The pre-scan is carried out with reading conditions for pre-scan thatare set such that the image sensor 34 can read images of all films to beread by the scanner 12 as input images without being saturated. On theother hand, the fine-scan is carried out with reading conditions forfine-scan that are set for each frame based on pre-scan data such thatthe image sensor 34 is saturated at a density slightly lower than aminimum density of the image (frame). Therefore, output signals obtainedby the pre-scan and by the fine-scan are only different in terms of aresolution and an output level.

Note that, in the present invention, the scanner 12 is not limited tosuch a scanner for reading an image by the slit-scanning but may be ascanner utilizing planar exposure in which the whole of an image of oneframe is read at one time. In this case, it is sufficient to use, forexample, an area CCD sensor to sequentially insert color filters forrespective colors of R, G and B between a light source and the film Fand read an image by the area CCD sensor, thereby separating an imagephotographed on the film F into three primary colors to sequentiallyread for the three colors.

As described above, the output signal (image data) from the scanner 12is outputted to the image processing device 14.

In addition, a driving device 42 is connected to the image processingdevice 14. The driving device 42 reads out image data and accompanyinginformation or the like of a subject person from an image data recordingmedium such as a Smartmedia for recording digital image data obtained byphotographing an image by a digital camera or the like, or outputs imagedata after processing to a general purpose image data recording mediumsuch as an FD, a CD-R, an MO, a DVD, a Zip or the like.

Moreover, a slot 44 or the like is also connected to the imageprocessing device 14 of this embodiment. The slot 44 or the like isdirectly connected to various image data supply sources such as apersonal computer and a digital camera, equipment for collectivelymanaging accompanying information of each subject person, or the likevia a cable or via a communication network and obtains digital imagedata and its photographing information, accompanying information of asubject or the like. Therefore, in the digital photoprinter 10, theimage processing device 14 may receive image data and information fromthese various image data supply sources other than an image on the filmF read by the scanner 12 and carry out the following processing.

In the first embodiment to be described below, the case in which digitalimage data is supplied mainly from the scanner 12 to the imageprocessing device 14 and outputted from the printer 16 as a photographicprint will be described as a representative example.

FIG. 2 is a block diagram schematically showing a configuration of theimage processing device 14 in accordance with the first embodiment ofthe present invention.

The image processing device 14 applies predetermined image processing toimage data that is read by the scanner 12 and sent to the imageprocessing device 14 as digital data and outputs the image data to theprinter 16 or the like. The image processing device 14 is composedmainly of a data processing unit 46, a pre-scan memory 48, a fine-scanmemory 50, a pre-scan image processing unit 52, a fine-scan imageprocessing unit 54 and a condition setting unit 56. In addition, in thisembodiment, the image processing device 14 includes a subjectinformation obtaining unit 68 for obtaining information concerning asubject person from an inputted image, a person identifying unit 70 foridentifying a subject person based on consistency between accompanyinginformation of a subject person and information of the subject person,which are obtained by a camera at the time of photographing or obtainedfrom equipment collectively managing information, and an imagecompositing section 64 that is disposed in the fine-scan imageprocessing unit 54 and composites an image associating the accompanyinginformation with a corresponding subject person in the photographedimage.

The data processing unit 46 applies logarithmic conversion, DC offsetcorrection, dark time correction, shading correction or the like to thedigital image data (input image data signal) for R, G and B outputtedfrom the scanner 12. Processed pre-scan (image) data is stored in thepre-scan memory 48 and processed fine-scan (image) data is stored in thefine-scan memory 50.

Image data stored in the pre-scan memory 48 and the fine-scan memory 50are called to the pre-scan image processing unit 52 and the fine-scanimage processing unit 54, respectively, for image processing as requiredbefore outputting.

The pre-scan image processing unit 52 consists of a pre-scan processingsection 58 and a data converting section 60. The pre-scan processingsection 58 is a section for carrying out color balance adjustment,contrast adjustment, contrast correction, brightness correction,sharpness processing, dodging processing and other image processing. Inaddition, the data converting section 60 converts image data to whichimage processing is applied in the pre-scan processing section 58 toimage data corresponding to a display by the display 20 using 3DLUT orthe like.

The fine-scan image processing unit 54 consists of a fine-scanprocessing section 62, image compositing section 64, data convertingsections 66 a, 66 b and 66 c. In the fine-scan processing section 62,various kinds of image processing such as color balance adjustment,contrast correction (tone processing), brightness correction, colorsaturation correction, sharpness processing and dodging processing areapplied to fine-scan data in accordance with image processing conditionsset in the condition setting unit 56 as described below. In the imagecompositing section 64, information accompanying a subject person in aphotographed image is composited with the subject person in associationwith its position. The data converting sections 66 a, 66 b and 66 cconverts image data after image processing to a form corresponding toeach image outputting means, namely the printer 16, the driving device42 and the slot 44.

The condition setting unit 56 reads out pre-scan data from the pre-scanmemory 48, determines reading conditions and image processing conditionsof fine-scan and sets the conditions in each necessary part such as thepre-scan processing section 58 and the fine-scan processing section 62.More specifically, the condition setting unit 56 carries out preparationof a density histogram, calculation of characteristic amount of an imagesuch as an average density, an LATD (largest area transmission density),a highlight (minimum density) and a shadow (maximum density) or the likefrom the pre-scan data. In addition, image processing conditions aredetermined according to an instruction made by an operator if necessaryand image processing conditions are reset by an input from the operationsystem 18 such as the keyboard 18 a and the mouse 18 b.

In addition, as described above, the image processing device 14 in thisembodiment includes the subject information obtaining unit 68 and theperson identifying unit 70 and carries out identification of a subjectperson in an image in order to composite accompanying information of thesubject person in a predetermined position in the image.

The subject information obtaining unit 68 receives pre-scan data andobtains subject information such as information for use in identifying aperson and positional information of a subject in an image in order foruse in compositing an image from the pre-scan data. For example, a faceimage of a subject person is preferably illustrated as information to beused in identifying a subject person. In this case, the subjectinformation obtaining unit 68 extracts the face image of the subjectperson in an image from the pre-scan data.

In this case, accompanying information of the subject person includesface image data and the person identifying unit 70 carries out patternmatching of the extracted face image and the face image in theaccompanying information to identify a person.

It is found which subject each piece of accompanying information shouldbe composited with to from the person identification. Thus, in the imagecompositing section 64, accompanying information including a message orthe like of each subject person is composited adapting it to a positionof each subject person based on the positional information of thesubject in the image obtained as described above.

An image in which accompanying information is composited is converted ineach of the data converting sections 66 a, 66 b and 66 c according to anoutput medium and outputted to an output medium desired by a customer.

Actions of the first embodiment will be hereinafter described.

In this embodiment, in photographing a multiplicity of subject personswith a camera, for example, the camera communicates with a hand-heldterminal (PDA) carried by each subject person to obtain accompanyinginformation of the subject person in question and record it on apredetermined recording medium. Then, an order for printing is placedwith a laboratory and there prepared a print by compositing theaccompanying information with an image of the relevant subject person.

FIG. 3 conceptually illustrates actions of the first embodiment of thepresent invention.

For example, in a certain party site or the like, if a multiplicity ofsubject persons 100 are photographed by a camera 110, each subjectperson 100, who is a participant, has its own hand-held terminal(hereinafter referred to as PDA) 102, in which message information(accompanying information) with a face image of the subject person isrecorded in advance.

This message information is not limited to, for example, text data butmay be image data and voice data.

In photographing each subject person 100 with the camera 110, aphotographer communicates between a communication terminal 112 providedon the camera 110 side and the PDA 102 of each subject person andobtains message information (accompanying information) of each subjectperson 100. The camera 110 may be a silver salt camera or a digitalcamera (still image/moving image).

The camera 110 records the obtained message information in apredetermined recording medium. Here, a recording medium and a recordingmethod are not specifically limited. Message information may bemagnetically recorded in a film or may be recorded in an IC chip, whichis inserted in a film cartridge, or, in the case of a digital camera,may be written in a recording medium such as a Smartmedia together withimage data.

In addition, if message information is recorded in a recording mediumseparate from a film, it is preferable to record a film ID, a framenumber and the like together with the message information such that theyare used for image composition later.

In addition, it is also possible to ask participants of a party inadvance, for example, to wear a special name plate having a function oflinking with a PDA of each participant to emit light when exchanginginformation with a camera and to photograph the name plate with thecamera. In this way, at the time of photographing, when the camera andeach subject person communicate with each other, the name plate of asubject person being currently photographed emits light at thecommunication timing. Therefore, it becomes easy to figure out aposition of each person in a photographed image later.

In addition, rather than each participant of a party owning a PDA, forexample, it is also possible that a host of the party manages messageinformation of each participant collectively by a host computer 120 andthe host computer 120 on the host side and the camera 110 communicatewith each other and the camera 110 obtains message information of eachparticipant.

Further, the communication between the camera 110 and the host computer120 may be performed at each photographing time or may be collectivelyperformed at a predetermined timing after photographing. In this way,since each subject person 100 is neither required to own the PDA 102 norto perform communication between the camera 110 and the PDA 102 of eachsubject person 100, complexity for a photographer to photograph whilepaying attention to communication between each participant and the PDA102 can be eliminated. Alternatively, rather than obtaining messageinformation by the camera 110, a laboratory 130 may obtain messageinformation directly from the host computer 120 at the time of imageprocessing in the laboratory 130 later.

In addition, if the camera 110 has a voice data obtaining function, thecamera 110 may obtain voice data generated by a subject person asmessage information. In this case, a gender, an age or the like may bedetermined according to this voice data and used for identifying aperson.

Alternatively, in a case of photographing a moving image by a digitalcamera, a person may be identified by deriving a position in an imagefrom a timing for each subject person speaking and a timing for a mouthmoving, estimating a gender, an age or the like from voices of thesubject person and combining clientele determining processing with theestimation. In addition, if voices are included as message information,a speaker may be recognized according to registered voices and voices ata photographing time to identify a person.

When photographing is performed and message information of each subjectperson is obtained together with image data by a camera as describedabove, these are carried to the laboratory 130 and printing is ordered,image processing is carried out by the digital photoprinter 10 as shownin FIG. 1 and a print is prepared in the laboratory 130.

Upon receiving an order, an operator inserts the film F in apredetermined carrier 30 and sets it in a predetermined reading positionof the scanner 12. Pre-scan image data pre-scanned and read in thescanner 12 is applied, as digital input image data, each processing suchas logarithmic conversion, DC offset correction, dark time correctionand shading correction in the data processing unit 46 as described aboveand then stored in the pre-scan memory 48. In addition, the conditionsetting unit 56 calls pre-scan data from the pre-scan memory 48,calculates a characteristic amount of an image or the like anddetermines image processing conditions. In addition, after adjusted byan instruction of the operator, the pre-scan data is applied correctionsuch as color balance adjustment, color density correction or brightnesscorrection and contrast correction or color saturation correctionaccording to the determined image processing conditions in the pre-scanprocessing section 58 of the pre-scan image processing unit 52. Further,after sharpness processing or dodging processing is performed accordingto an instruction of the operator, the pre-scan data is converted using3DLUT or the like in the data converting section 60 and displayed on thedisplay 20.

Further, in the case of a digital image photographed by a digital cameraor the like, it is possible to obtain image data via a disk drive froman image data recording medium such as a floppy disk (FD), an MO, a Zip,a CD-R and a DVD or obtain image data from a communication network. Inthis case, the image data is stored in the pre-scan memory 48 and thefine-scan memory 50 and the subsequent image processing is performed inthe same manner as that for image data read by the scanner 12.

In addition, when processing for pre-scan data is carried out, forexample, in the scanner 12, message information is simultaneously readfrom a magnetic recording medium of a film or an IC chip or the likeinserted in a film cartridge and message information including faceimage data of a subject person is sent to the person identifying unit70. On the other hand, the subject information obtaining unit 68receives the pre-scan data via the condition setting unit 56 (ordirectly from the pre-scan memory 48) and extracts subject informationnecessary for identification of a person or composition of an imagelater.

The subject information obtaining unit 68 extracts a face image of asubject person in an image.

As a method of extracting a face area of a person, particularly hair,there is, for example, a method disclosed in JP 8-122944 A of theapplicant of this application. In addition, as a method of extracting aspecific area such as a face area of a person, methods disclosed in JP4-346333 A, JP 5-158164 A, JP 5-165120 A, JP 6-160993 A, JP 8-184925 A,JP 9-101579 A, JP 9-138470 A, JP 9-138471 A, JP 9-146194 A, JP 9-197575A and the like can also be preferably utilized.

The person identifying unit 70 carries out pattern matching of the faceimage of the subject person extracted by the subject informationobtaining unit 68 and a face image included in message information toidentify the subject person and confirm which message information iscomposited with which image. At this point, information such as a genderand an age is used if such information exists in the messageinformation, or, even if such information does not exist, a gender, anage, an occupation or the like is estimated by the following clienteledetermination method and such estimated information is utilized to carryout person identification, whereby the person identification can becarried out more accurately.

As the clientele determination method for estimating a gender, an age,an occupation or the like, for example, a method of estimating a gender,a person can be estimated as female if, as a result of extracting a faceimage (hair), a volume of a hair area is large, if the hair area islong, if an outline of the torso and the lower part seem to be a skirtjudging from a shape of clothes extracted from the pattern matching ofthe outline, or if color contains many shades of red and pink. Inaddition, from a result of extracting a face image, it is also possibleto estimate a gender based on whether a person wears makeup or not, usesa lipstick or not or wears accessories or not.

In addition, as a method of estimating an age, a method of calculating aheight of a subject person from a photographed image to estimate that aperson is an adult, a junior high or a high school student, anelementary school student, an infant or the like based on a size of aheight is possible. Alternatively, if a volume of an extracted hair areais small or if a color of hair is white, a person is estimated to be anaged person.

In addition, an occupation is estimated mainly according to clothes. Forexample, if clothes are likely to fall into a category of suits judgingfrom a shape, a density and a tint of clothes, a subject person can beestimated as belonging to a white-collar worker layer. If clothes islikely to fall into a category of uniforms judging from a shape and acolor of the clothes, a subject person can be estimated as a studentincluding a junior high and a high school students taking a result ofestimation of a gender and an age into account.

Further, a clientele determining method is not limited to these butvarious other methods can be used.

On the other hand, fine-scan is performed in accordance with conditionsdetermined by the condition setting unit 56 and predetermined imageprocessing is applied to read fine-scan data in the fine-scan processingsection 62.

Thereafter, in the image compositing section 64, message informationcorresponding to each subject person is composited which is adapted to aposition of a subject person in the image extracted by the subjectinformation obtaining unit 68 using the above result of personidentification.

In this case, when communication is performed between a camera and a PDAof each subject person at the time of image photographing, it is alsopossible to give different message information for each consecutivephotographing frame. In doing so, it is sufficient that identificationinformation such as a film ID and a frame number indicating whichmessage information corresponds to which frame is included in messageinformation. In this case, the image compositing section 64 cancomposite an image using the identification information such as a framenumber. Thus, person identification becomes unnecessary but it isnecessary to perform extraction of a face image or the like forcompositing an image to extract a position of a subject person in animage.

Image data to which image compositing processing was applied may beconverted to data for a print output by the data converting section 66 aand outputted as a print from the printer 16 as desired by a customer,or may be converted to data for an image file output by the dataconverting section 66 b and outputted to a predetermined recordingmedium from the driving device 42. Alternatively, the image data may beconverted to a predetermined form by the data converting section 66 cand laid open through a communication network from the slot 44 ortransmitted to a predetermined terminal apparatus.

In this case, a composited image itself may be returned to the customer(or each subject person) or only access destination information forobtaining image data may be returned.

A second embodiment of the present invention will be described next.

In this embodiment, a camera itself forms an image processing system andperson identification processing and image compositing processing arecarried out by the camera.

FIG. 4 schematically shows a configuration of a camera forming an imageprocessing system in accordance with this embodiment.

As shown in FIG. 4, a camera 210 of this embodiment is a digital cameraand includes an image inputting unit 212 for photographing a subjectperson 200, an image memory 214 for storing photographed image data andimage processing unit 216 for carrying out predetermined imageprocessing, and further includes a communication terminal 218 forcommunicating with a PDA 202 owned by the subject person 200 to obtainmessage information, a subject information obtaining unit 220 forobtaining information of a subject person from inputted image data, aperson identification unit 222 for identifying a person from theinformation of the subject person and the message information, an imagecompositing unit 226 for compositing message information to the inputtedimage, an image outputting unit 228, and a voice obtaining unit 224 forinputting voice information of a subject person in order to use inperson identification and the like. In this way, the camera 210 formsone image processing system for performing from image input to imageprocessing and image output.

The image inputting unit 212 is for performing ordinary imagephotographing by an image pick-up element such as a CCD via a lens. Animage photographed and inputted is stored in the image memory 214 asdigital image data. The image data stored in the image memory 214 iscalled to the image processing unit 216, where image processing such aswhite balance adjustment and γ correction is applied to the image data.

On the other hand, the subject information obtaining unit 220 callsimage data from the image memory 214 and extracts a face image or thelike of a subject person. The person identification unit 222 receivesthe face image of the subject person from the subject informationobtaining unit 220 and identifies the subject person by applying patternmatching to the face image of the subject person and a face image of asubject person in the message information received from thecommunication terminal 218. In addition, in this case, accuracy of theperson identification may be improved utilizing voice data inputted fromthe voice obtaining unit 224.

When the person identification is performed, based upon the result, themessage information is composited in an appropriate position withrespect to a subject person in an image after the image processing inthe image compositing unit 226. The image data after composition isoutputted from the image outputting unit 228. The outputted image isdisplayed on an image displaying device such as a liquid crystal paneland, at the same time, recorded in a predetermined image recordingmedium.

Note that, although the communication terminal 218 communicates with thePDA 202 owned by each subject person 200 at the time of photographing toobtain message information, a method of obtaining message information isnot limited to this. For example, the communication terminal 218 maycommunicate with an apparatus such as a host computer 230 or the likethat collectively manages message information to obtain messageinformation from the apparatus. Alternatively, the camera 210 may beconnected to a personal computer (not shown) to obtain messageinformation from the host computer 230 via a communication line.

In addition, as to a form of outputting an image, an image may beoutputted as a print, for example, as long as the camera 210 has a printoutputting function.

As described above, since information concerning a subject person can becomposited automatically according to each of the above-mentionedembodiments, it is convenient for obtaining information of a subjectperson and arranging information in order. In particular, for example,it is very convenient for exchanging information among participants of aparty or the like.

In particular, according to the second embodiment, since all processingcan be carried out on the camera side, an image in which messageinformation is composited can be obtained simply and promptly andinformation of a subject person can be obtained more easily.

Further, if an image is outputted as digital data, when a pointingdevice is clicked on a subject person at the time of reproducing animage, accompanying message information may be reproduced and outputtednext to the subject person. In addition, message information may becomposited with a photographed moving image. Moreover, in these cases,it is possible to use a still image, a moving image, a text, voices orthe like as message information.

Next, an ordering system in accordance with a second aspect of thepresent invention will be described with reference to FIGS. 5 to 11.

First, a first embodiment of the second aspect of the present inventionwill be described. The first embodiment is the case in which, forexample, a customer places an order for printing one scene of atelevision screen while watching the television.

FIG. 5 schematically illustrates a configuration of an ordering systemin accordance with the first embodiment.

The ordering system shown in FIG. 5 is basically composed of atelevision 310 that is a first information apparatus, a camera 312 thatis a second information apparatus and a laboratory 314 that is adestination to which goods order data is sent.

The television 310 is a television having a network communicationfunction, and it not only receives radio waves so as to reproduce imagesand voices to display reproduced images on a screen and generatereproduced voices but also has an information transmission functioncapable of transmitting, for example, order information of a customer toan optional destination. Moreover, it is assumed that the television 310is a digital television and has a storage device (e.g. a hard disk (HD))316 for temporarily recording and accumulating received image data. Thestorage device 316 may be built into the television 310 or of externaltype. In this case, related information corresponding to an image inquestion is also recorded in the storage device 316 together with thedigital image data (hereinafter referred to simply as “image data”).

The camera 312 is connected to the television 310 by a wirelesscommunication technology such as the Bluetooth, for example, and has animage obtaining mode separate from ordinary photographing. If a customerpresses a shutter or a predetermined key in this mode while the customeris watching the television 310, print order information for an imagedisplayed on the display screen of the television 310 at that point istransmitted to the television 310 side. Further, the television 310 maybe an ordinary television for home use that is installed indoors or maybe one installed outdoors such as on the street. Any television will doas long as order information can be transmitted from the camera 312 tothe television 310 side by wireless communication.

In addition, this information apparatus on the customer side (secondinformation apparatus) is not limited to such a camera but may be anyapparatus as long as it can transmit information to the television 310by wireless communication, such as a PDA (hand-held terminal), apersonal computer, a cellular phone and a remote control.

Actions of this embodiment will be hereinafter described.

The television 310 receives a television signal from a televisionstation to display a reproduced image on the display screen of its ownand, at the same time, records image data on the displayed image in thestorage device 316. Besides image data, the television signal includes,for example, related information (hereinafter referred to also as“related data”) such as description or the like about the image (scene)or the program. Such related data may be transmitted utilizing a spacearea of radio waves as, for example, in the teletext broadcasting.

If there is a scene that a customer wishes to obtain while watchingimages displayed on the screen of the television 310, the customer usesthe camera 312 set to an image obtaining mode in advance and presses itsshutter at an optional selection timing. Then, order data is transmittedfrom the camera 312 to the television 310 side.

The order data includes orderer identification information (customer ID)and order indication information. The order indication information isinformation for specifically indicating contents of an order andincludes, for example, print size, the number of prints, contents ofdesired image processing and a method of receiving a print. The contentsof desired image processing may be various kinds of image processingthat can be performed by an image processing device used in the firstaspect of the present invention, for example. As image processing, theremay specifically be designated image modification processing such asdensity/tint adjustment, tone adjustment, change in general impression,and change of ordinary finishing into sepia finishing, monochromefinishing or the like, as well as image edition processing such asproducing of an index image for a plurality of frames, imagecompositing, position/size adjustment, and superimposition ofcharacters. Accordingly, the order data may of course includeinformation concerning such image modification or edition processing asabove. The order data may further include message information of acustomer.

Transmission of order data from the camera 312 to the television 310 maybe carried out at each instance when the customer presses the shutter.Alternatively, order data may be once stored in the storage device inthe camera 312 together with time data (time information of the cameraat that time) when the customer presses the shutter, and then order datafor a plurality of times of pressing the shutter may be collectivelytransmitted to the television 310 side at a separate timing.

Upon receiving order data from the camera 312, the television 310transmits the received order data and image data (in some cases, withthe addition of image related data (goods characteristic information))as goods order data to the laboratory 314 via a network. A timing forselecting image data to be transmitted may be according to timeinformation of the time when the customer pressed the shutter of thecamera 312 or may be according to a timing when the television 310receives order data from the camera 312.

The laboratory 314 is provided with the digital photoprinter 10 as shownin FIGS. 1 to 4, for example. Upon receiving goods order data, thelaboratory 314 applies predetermined image processing to the transmittedimage data in accordance with the order data using the image processingdevice 14 shown in FIGS. 1 and 2, for example, and prepares a print withthe printer 16 shown in FIGS. 1 and 2, for example. In addition, thelaboratory 314 may record and store the image data in a specified imagedata storing device for possible reorder in the future, for example.Further, as optional processing in response to the request of acustomer, the laboratory 314 may print a description or an advertisementof a scene (or a program) using image related data, or print messageinformation of the customer and the like on the back of a print. Inaddition to or apart from such printing, the image data may be recordedon various types of general purpose recording media, such as a FD, aCD-R, an MO, a DVD and a Zip, by the driving device 42 shown in FIGS. 1and 2, for example. In this case, a description or an advertisement ofan image whose image data is to be recorded, message information of acustomer or the like may be recorded coincidentally with the image dataas accompanying therewith.

Next, a second embodiment of the present invention will be described.

The second embodiment is the case in which a customer orders printing ofone scene of a movie while watching a movie in a theater.

FIG. 6 illustrates a schematic configuration of an ordering system inaccordance with the second embodiment.

The ordering system shown in FIG. 6 is basically composed of acommunication and control facility 320 of a theater that is a firstinformation apparatus, an information terminal apparatus (e.g., ahand-held terminal such as PDA) 330 of a customer that is a secondinformation apparatus and a laboratory 332 that is a destination towhich goods order data is sent.

It is assumed that a movie is projected using digital image data in atheater in this embodiment. The communication and control facility 320includes a control device 324 and a receiving device 326. The receivingdevice 326 is installed near seats of the theater and connected to thecontrol device 324 via wire or wireless to receive a signal (order data)from the information terminal apparatus 330 of a customer and transmitit to the control device 324.

The control device 324 projects an image on a screen 322 and, at thesame time, receives order data of a customer from the receiving device326 to transmit it to the laboratory 332 together with image data or thelike through a network line or the like. In addition, a storage device328 for recording an image and its related data is connected to thecontrol device 324.

The information terminal apparatus 330 of a customer is not limited to ahand-held terminal such as PDA but may be, for example, a cellularphone, a remote control provided in a seat or the like.

Actions of this embodiment will be hereinafter described.

The control device 324 projects a movie image on the screen 322 on thebasis of image data as digital data. If there is a scene that a customerwishes to obtain while watching the screen 322, the customer transmitsorder data from the information terminal apparatus 330 at hand to thereceiving device 326 installed near the seat by pressing a key at anoptional or desired selection timing. In this case, the order dataincludes orderer identification information (customer ID) and orderindication information as in the first embodiment.

The receiving device 326 transmits the received order data to thecontrol device 324 at every reception of order data or at one time afterit has received order data several times. The control device 324 callsimage data and related data corresponding to the order data from thestorage device 328 at every reception of order data or at one time afterit has received order data several times and transmits them to thelaboratory 332 together with the order data, as goods order data as awhole.

The laboratory 332 applies predetermined image processing designated bythe order data to the transmitted image data to prepare a print orrecord the processed image data on a recording medium, as in the firstembodiment described before. In this embodiment, similar to the firstembodiment, related data such as a description of a displayed image(scene) or the program in question, or message information of acustomer, a theater or the like may be back printed, or recorded on arecording medium coincidentally with the image data as accompanyingtherewith.

In addition, as another example of this embodiment, the ordering systemmay be configured as a system for an image of a poster instead of animage of a movie projected on a screen, with which system order data isreceived from an information terminal apparatus of a customer and thentransmitted to a laboratory by a transceiver, which is set for exampleon the back of the poster, to print the image of the poster or output arecording medium on which the image data of the image in question isrecorded.

Though the entire image displayed on a screen of a television or a movieis to be ordered in the first and second embodiments as described above,the present invention is not limited to such. A part of an imagedisplayed on a screen may be ordered or even several parts of an imagedisplayed on a screen may selectively be ordered. In these cases,positioning information, the number of orders and the like with respectto an image on a screen may be designated by key operation orhandwriting on the aforementioned information terminal apparatus such asa camera, a PDA, a cellular phone, a remote control and a personalcomputer to add to the order data.

In various embodiments as above, the first information apparatus is atelevision provided with a communication function, or a communicationand control facility in a theater, or a communication device(transceiver) set on a poster. The present invention is not limited tosuch apparatus and any of a game machine, a personal computer and otherapparatus with a display may also be used as the first informationapparatus as long as it is provided with a communication function.

In respective embodiments as described above, and in the case that aplurality of order data are transmitted to the first informationapparatus such as a television by a plurality of customers, such orderdata may be classified according to customers or images (goods) andgoods order data may be produced according to customers or images(goods) on the first information apparatus side to transmit to alaboratory. Specifically, a plurality of order data for different kindsof images (goods) may be classified as from one and the same customer ora plurality of order data from different customers may be classified asfor one and the same image (goods).

In respective embodiments as described above, moreover, it is possibleto automatically detect images, which are analogous to the displayedimage of a television or a movie once designated with an informationapparatus such as a camera and a PDA on the customer's side at a desiredselection timing, among, for example, the images displayed within apredetermined period after a time designated or the images stored in astorage device to collectively display them toward the customer orcollectively transmit the image data on them to the customer.

In addition, in the embodiments as above, related data such as adescription of a displayed image (scene) or the program in question andmessage information of a theater or the like to be printed on the backof a print or recorded on a recording medium coincidentally with theimage data as accompanying therewith are represented as linear imagessuch as characters, for example. The present invention is not limited tosuch and the information and data as above may also be represented as atleast one selected from the group consisting of an image such as a stillimage and a moving image, a voice, a text and a program.

Next, a third embodiment of the present invention will be described.

In the first and the second embodiments as described above, image datais transmitted to a laboratory from the side of a television, a theaterand the like. On the other hand, in the third embodiment, image data istransmitted to a laboratory directly from an information apparatus of acustomer.

FIG. 7 illustrates a schematic configuration of an ordering system inaccordance with the third embodiment.

As shown in FIG. 7, this system is configured basically the same as thesystem configuration of the first embodiment shown in FIG. 5 and iscomposed of a television 340 that is a first information apparatus, acamera 342 that is a second information apparatus and a laboratory 344that is a destination to which goods order data is sent.

The television 340 is a digital television having a networkcommunication function and has a storage device 346 for temporarilyrecording and accumulating received image data. In addition, the camera342 is connected to the television 340 by wireless communication and hasan image obtaining mode separate from an ordinary photographing.Further, as in the first embodiment, the information apparatus on thecustomer side is not limited to the camera 342 but may be any apparatussuch as a PDA, a personal computer, a cellular phone and a remotecontrol as long as it can transmit information by wirelesscommunication.

If there is a scene that a customer wishes to obtain while watching thetelevision 340, the customer sets the camera 342 to the image obtainingmode and presses its shutter at an optional selection timing. Then, animage data request signal, which requests transfer of an image displayedat that point, is transmitted from the camera 342 to the television 340.This signal may include an order signal indicating a print size or thelike.

Upon receiving the image request signal, the television 340 transmitsthe image data to the camera 342 wirelessly. At this point, if the imagerequest signal also includes the order signal, it is preferable tocontrol an amount of information to conform to the print size, forexample, compress the image data, and return it. Further, since anoptional image transmitted by the television broadcast is printed, aproblem under a copyright may arise depending on how the print is used.Thus, an image quality may be intentionally decreased to an imagequality lower than that of the original image to be printed in order toprotect a copyright. It is preferable to automatically impose a licensefee based on a copyright upon printing at a laboratory 344 as describedbelow, especially when there is an appreciable fear of interference witha copyright.

Upon receiving the image data, on the camera 342 side, it is sufficientto order printing in the same manner as in the case in which an image isphotographed ordinarily with the camera 342. Printing may be ordered bytransmitting the image data, its related information and the like to thelaboratory 344 via network communication directly from the camera 342,or may be ordered by outputting the data to a recording medium andbringing the recording medium to the laboratory 344. The laboratory 344applies predetermined image processing to the image data according tothe related information and the order information to prepare a print oroutput a recording medium containing the processed data, as in therespective embodiments as described above.

In this embodiment, it is preferable that the image data, which istransmitted from the television 340 side to the information apparatussuch as the camera 342 and a PDA of a customer, includes two components,namely image data on images for displaying (having a lower resolution)and encoded image data on images for printing (having a higherresolution). Under such conditions, only contract laboratories having akey which enables decoding of encoded image data can obtain encodedimage data and carry out printing or outputting of recording media.Thus, images can be prevented from being appropriated by a third party.

Next, a fourth embodiment of the present invention will be described.

The fourth embodiment is the case in which an image is actuallyphotographed by a camera and a print with predetermined informationadded thereto is ordered.

FIG. 8 illustrates a schematic configuration of a system of thisembodiment.

As shown in FIG. 8, this system basically consists of a camera 350 of acustomer, who is a photographer, as a first information apparatus, aninformation terminal apparatus 352 held by a subject person that is asecond information apparatus and a laboratory 354.

The camera 350 is a digital camera that also has a communicationfunction. The information terminal apparatus 352 held by a subjectperson is not specifically limited but may be any apparatus such as aPDA (hand-held terminal), a cellular phone and the like as long as ithas a function of communicating and exchanging information with thecamera 350. In addition, the camera 350 is capable of communicating withthe information terminal apparatus 352 and transmitting and receivingdata to and from the laboratory 354 via network communication.

This embodiment is for exchanging information between the camera 350held by a photographer and the information terminal apparatus 352 heldby a subject person 351 and preparing a print in which a photographedimage and message information transmitted by the subject person 351 arecomposited with each other.

The exchange of information may be arranged such that a data requestsignal is transmitted from the camera 350 to the information terminalapparatus 352 of the subject person 351 when the photographerphotographs the subject person 351, and, in response, the subject person351 returns message information from the information terminal apparatus352. Alternatively, the exchange of information may be arranged suchthat the subject person 351 side transmits a message that should beinserted in an image to be photographed next from the informationterminal apparatus 352 to the camera 350 and the camera 350 receives it.For message information, various types of data such as images includinga still image and a moving image, voices, a text and a program may beemployed.

The photographer transmits an image shot on spot, which is obtained byphotographing the subject person 351 with the camera 350, to thelaboratory 354 via network communication from the camera 350 togetherwith the message transmitted from the information terminal apparatus 352of the subject person 351 as print order data. The laboratory 354composites the image shot on the spot transmitted from the camera 350and the message information to prepare a print shot on the spot 356.

Next, a fifth embodiment of the present invention will be described.

The fifth embodiment is for transmitting order data as well as imagedata to a laboratory from an information apparatus on a subject sideinstead of from a camera, although an image is photographed with thecamera as in the fourth embodiment.

FIG. 9 illustrates a schematic configuration of an ordering system ofthis embodiment.

As shown in FIG. 9, this system basically consists of a camera 360 of acustomer, who is a photographer, as a first information apparatus, aninformation terminal apparatus 362 on a subject side that is a secondinformation apparatus and a laboratory 364.

The camera 360 is a digital camera having a communication function likethe camera 350 of the fourth embodiment. In addition, for example, inthe case in which a subject is a flower 361 in a flower bed in a park,the information terminal apparatus 362 is a data transceiver or the likeembedded in the ground under the flower 361. Upon receiving a signalfrom the camera 350, the data transceiver transmits the signal to thelaboratory 364 through a control device 363 a installed in, for example,a park management facility.

When the customer being a photographer photographs the flower 361 withthe camera 360 and transmits photographed image data and order data fromthe camera 360 to the information terminal apparatus (data transceiver)362, the information terminal apparatus 362 transmits the image data andthe order data to the laboratory 364 through the control device 363 a.In this case, it is preferable that the control device 363 a storesrelated information of the subject (here, a name of the flower being thesubject or the like) in a storage device 363 b and adds the informationto the order data to transmit it.

Upon receiving transmission of the data, the laboratory 364 prepares aprint 366 in which an image of the flower being an image shot on thespot is composited with its related information, for example, a name oran origin of the flower.

Although printing is ordered from a laboratory in each of theembodiments described above, if related information (or messageinformation) is composited in a print, the related information may becomposited on the surface of the print or may be printed on the back ofthe print as shown in FIGS. 8 and 9.

In addition, image data may be outputted to a computer readablerecording medium (a floppy disk, a CD-R or the like) together withrelated information in addition to simply outputting it as a print. Inthis case, it is possible to record voice data in addition to image datasuch as a still image and a moving image together in advance toreproduce the data and execute the procedure by a computer. It issufficient for the customer to inform that, for example, the customerwishes the image data to be outputted to a CD-R or the like instead ofbeing printed based on the order data.

On the other hand, embodiments to be described below are the case inwhich a customer orders not only a print but also general goods whilewatching an advertisement on the screen of a television or the like.

Next, a sixth embodiment of the present invention will be described.

FIG. 10 illustrates a schematic configuration of an ordering system inthis embodiment.

As shown in FIG. 10, this system is basically composed of a television370 that is a first information apparatus, an information terminalapparatus 372, for example a PDA, of a customer, that is a secondinformation apparatus and a goods order center 374 to which goods orderdata is sent.

The television 370 is a television having a network communicationfunction and has a storage device 376 for recording and accumulatingreceived data, related information of advertised goods or the like as inthe above-mentioned embodiments.

A television signal including data relating to advertised goods istransmitted to the television 370. Upon receiving the signal, thetelevision 370 displays an advertisement of the goods on a screen and,at the same time, temporarily stores related information in the storagedevice 376.

If there are goods that a customer wishes to buy while watching anadvertisement on the screen of the television 370, the customer pressesa key or the like of the information terminal apparatus 372 such as aPDA at hand to transmit a customer ID (customer identificationinformation) and order information to the television 370. Informationcharacteristic of the goods such as a specification, for example, aproduct number, the number of pieces of goods, a color and a size isadded to the order information. Upon receiving the customer ID and theorder information, the television 370 transmits related information(goods data or the like) corresponding to the order information of thepertinent goods as goods order data to the goods order center 374 vianetwork communication or the like. Upon receiving the goods order data,the goods order center 374 delivers the goods to a home 378 of thecustomer by a home delivery service based on the data. In this case, thegoods order center 374 may return data for inputting an order or orderconfirmation data to a place designated by the customer separately forconfirmation of the order.

Next, a seventh embodiment of the present invention will be described.

FIG. 11 illustrates a schematic configuration of an ordering system ofthis embodiment.

As shown in FIG. 11, the system of this embodiment also has aconfiguration similar to that of the system of the sixth embodimentshown in FIG. 10 and is composed of a television 380, an informationterminal apparatus 382 of a customer and a goods order center 384. Inaddition, the television 380 includes a storage device 386. A televisionsignal including data related to advertised goods is transmitted to thetelevision 380. Upon receiving the television signal, the television 380displays an advertisement of the goods on a screen and, at the sametime, temporarily stores related information in the storage device 386.

A customer transmits a data request signal from the information terminalapparatus 382 at hand to the television 380 at an optional selectiontiming if there are goods that the customer wishes to buy while watchingthe television 380. Upon receiving the data request signal, thetelevision 380 returns goods related information to the informationterminal apparatus 382 of the customer. The received goods relatedinformation is reproduced and displayed on a monitor of the informationterminal apparatus 382. The customer sees this display and edits datafor inputting an order such as a specification, for example, a productnumber, the number of pieces, a color and a size to prepare goods orderdata.

Then, the customer adds data such as a customer ID and a method ofreceiving goods and transmits goods order data to the television 380from the information terminal apparatus 382.

Upon receiving the goods order data, the television 380 transmits thegoods order data to the goods order center 384 via networkcommunication. The transmission of the goods order data may be performedcollectively for goods or may vary for each commercial. The goods ordercenter 384 dispatches ordered goods to each customer in accordance withthe goods order data.

The goods may be delivered to a home of the customer by a home deliveryservice, or the customer may receive the goods at a nearby agent shop(e.g., a convenience store or the like).

In addition, goods may be separately ordered by a customer rather thanthrough a television as described above. For example, the orderingsystem may be a system that allows a customer to order goods through alaboratory while ordering printing of photographs.

It is preferable that, if a customer obtains a scene in a televisionprogram from a television by his information terminal apparatus, thecustomer can see not only goods but also an advertisement of goodsrelated to the goods in question on the screen. Moreover, it ispreferable that, if a customer presets a specific goods item, conditionsfor automatically obtaining (capturing) information and the like withrespect to a television program by his information terminal apparatus, adisplayed image, goods information, information related to the image orthe goods, or the like, is automatically captured in the informationterminal apparatus of the customer at the point when an advertisement ofthe item is broadcast.

That is to say, it is preferable that a mode, in which images and goodsinformation are to be automatically obtained or captured, can be set. Asan example, IDs each of which is specific to a given kind of goods maybe added to broadcast data in advance so as to use for the setting ofsuch an auto-capturing mode as above according to the kind of goods.Specifically, an advertisement for an automobile, for example, can beauto-captured conveniently every time when such an advertisement isdisplayed on a television. Or again, with respect to a game machine in agame arcade, a pachinko parlor or the home, conditions for automaticallycapturing images may previously be set and transmitted from aninformation apparatus such as a PDA of a customer to the game machine.Thus, an image can be auto-captured conveniently when, for example, thescore made is high or exceeds a predetermined level, or a predeterminedscene has been cleared.

Further, although the case in which a customer watches an advertisementon the screen of a television to order goods is described in theabove-mentioned sixth and seventh embodiments, a display screen is notlimited to that of a television but it is possible to apply the systemto the case in which the customer watches an advertisement (image) on ascreen such as a screen of a personal computer, a screen of a gamemachine, or a poster (regardless of whether it is in or out of the homeand provided that a transceiver is provided on the back of the poster)and orders goods. In addition, the information terminal apparatus of thecustomer is not limited to, for example, a hand-held terminal such as aPDA but an apparatus having an information communicating function suchas a camera, a personal computer, a cellular phone and a remote controlcan be used.

Next, an eighth embodiment of the present invention will be described.

In the first and third embodiments as described above, the image datathat the first information apparatus such as the television has receivedis sent to the laboratory directly or through the information terminalapparatus of a customer. The eighth embodiment is directed to the casein which an original image stored in a broadcast station and image dataof the original image received by a television or the like areselectively used as required.

FIG. 12 illustrates a schematic configuration of an ordering system ofthe eighth embodiment.

As shown in FIG. 12, this ordering system comprises a television 390which is a first information apparatus, a hand-held terminal(hereinafter typified by a PDA) 392 of a customer which is a secondinformation apparatus, a laboratory 394 to which goods order data issent, and a broadcast station 396 which transmits an image received bythe television 390.

The television 390 is a digital television having a communicationfunction, and has a storage device (HDD) 391 for temporarily recordingand storing received image data. The PDA 392 is connected to thetelevision 390 by wireless communication and has an image obtaining modedifferent from the ordinary photographing mode. As in the firstembodiment, the information apparatus on the customer side is notlimited to the hand-held terminal such as the PDA 392 but may alsoinclude information terminal apparatuses such as a personal computer, acellular phone, a camera and a remote controller as long as they cantransmit information by wireless communication.

When there is a scene that the customer wishes to obtain, the customerperforms a key manipulation or a designation by hand on the PDA 392 atan optional or desired selection timing while watching the television390. As a result, an image data request signal for requesting transferof a displayed image is sent from the PDA 392 to the television 390.This signal may include an order signal indicating a print size or thelike.

Upon receipt of the image data request signal, the television 390transmits image data of the displayed image to the PDA 342 wirelessly.That is, the PDA 392 receives a low-resolution image adapted for monitordisplay. Preferably, the image data is for example compressed or thinnedout to control the amount of data (information) in accordance with thedisplay image size on a monitor of the PDA 392, or in accordance withthe print size if the image data request signal also includes the ordersignal, whereupon a reduced image with a low resolution can betransmitted. Identification information (ID) of the displayed image isalso preferably attached to the image data.

The PDA 392 that received the image data displays the image, for examplethe reduced image on the monitor of the PDA 392. After the customerconfirms the image, an image ID or image data of the reduced image isreturned to the television 390 together with order data and furtherrelated information of the displayed image.

While watching the image displayed on the monitor of the PDA 392, thecustomer performs desired image processing steps from among modificationprocessing such as density/color adjustment, gradation adjustment,modification in general impression, and finishing modification tosepia-toned finishing or monochrome finishing, as well as editionprocessing such as production of an index image for a plurality offrames, image composition, layout/size adjustment, and characterinsertion. The customer may perform other processing that can beperformed in the image processing device according to the first aspectas described above, or image processing such as the modificationprocessing and the edition processing by means of commercially availablesoftware programs.

In this case, it is preferred that the order data also includes imageprocessing information from the customer such as information concerningthe modification processing (hereinafter simply referred to as“modification information”) and information concerning the editionprocessing (hereinafter simply referred to as “edition information”), inother words, image processing information as to which frame the customerprocessed, or which image processing the customer performed among themodification processing and edition processing.

On the television 390 side that received the image ID or the image dataof the reduced image together with the order data and further therelated information, the image ID or the image data of the reduced imageis used to search for the image data of the corresponding displayedimage in the storage device 391. The image data of the image obtained bythe search, the order data received, and the related information aretransmitted to the laboratory 394 as the goods order data for placing anorder for printing or recording on a recording medium. That is, an orderis placed for prints or a recording medium having data recorded therein.It should be noted here that the order data may include the imageprocessing information.

On the laboratory 394 side, the image data is subjected to specifiedimage processing steps based on the order data and related informationreceived as in each of the embodiments as described above. The thusprocessed image data is used to produce prints or output a recordingmedium. If the order data includes the image processing information, themodification processing and edition processing can be reproduced on theimage data according to the image processing information (modificationinformation and edition information) transmitted together with the imagedata.

When the print size requested in the order data is large, the resolutionof the image data is very often insufficient to obtain an image print ofhigh quality and high resolution data is necessary. In this case,according to this embodiment, the television 390 side transmits theimage ID, the order data (which may include the image processinginformation) and further the related information that were received fromthe PDA 392, to the laboratory 394 as the goods order data to therebyplace an order for printing and an order for recording on a recordingmedium.

On the laboratory 394 side, the received image ID is transmitted to thebroadcast station 396, where a database 397 is searched using thetransmitted image ID to read out high-resolution image data of theoriginal image used in broadcasting. The image ID is returned with theimage data of the original image obtained by the search from thebroadcast station 396 side to the laboratory 394 side.

Thereafter, on the laboratory 394 side, the image data of the originalimage received from the broadcast station 396 is used together with theorder data and the related information of the corresponding image IDreceived from the PDA 392 to perform specified image processing steps asin each of the embodiments as described above. For example, when theorder data includes the image processing information, the modificationprocessing and edition processing are reproduced in accordance with theimage processing information to thereby produce a print or output arecording medium.

The method for transferring the original image used in broadcasting fromthe broadcast station 396 to the laboratory 394 is not particularlylimited but any conventionally known method can be employed. Forexample, the method disclosed in commonly assigned JP 10-171027 A can beemployed.

If a large print size is requested, the original image in the broadcaststation 396 is used, and the image received on the television 390 isotherwise used. This selective use of the original image and thereceived image in accordance with the requested print size enablesoutputting a print on which a high quality image is reproduced. Thelaboratory 394 side may determine as to which of the original image andthe image received on the television 390 is used.

The requested print size is not the sole factor for determining which ofthe original image and the received image is used, and determination ofthe image to be used may depend on any factor. For example, a method maybe applied in which the original image is selected when the originalimage is present in the database 397 of the broadcast station 396, andotherwise the image received on the television 390 is used.

According to this embodiment, the image data transmitted to the PDA 392has a low resolution, but even when any image on the air is to beprinted, a print having a high-resolution and high-quality image can beproduced from the original image in the laboratory 394. The laboratory394 in which automatic charging based on the copyright can be performedenables appropriate protection of the copyright.

The image accompanying data (various types of data including stillimage, moving image, voice, text and program) which is not included inthe broadcasting data (transmission data) may be stored in the database397 of the broadcast station 396 so that the image accompanying data canbe also supplied in response to the image request from the customer foruse in composition on a print or recording on a recording medium. Inthis case, charging may be also done in accordance with the imageaccompanying data.

Next, a ninth embodiment of the present invention will be described.

In the third, seventh and eighth embodiments as described above, theimage data of the image displayed on the first information apparatussuch as the television and designated from the customer side is returnedto the second information apparatus on the customer side such as thecamera or the hand-held terminal including the PDA which was used fordesignating the displayed image and which has a communication function.In contrast, the ninth embodiment transmits the displayed image not onlyto the information apparatus on the customer side in which the displayedimage was designated, but also to the destination (or informationapparatus) designated by the customer.

FIG. 13 illustrates a schematic configuration of an ordering system ofthe ninth embodiment.

As shown in FIG. 13, the ordering system of this embodiment comprises atelevision 400 which is a first information apparatus, a hand-heldterminal (hereinafter typified by a PDA) 402 of a customer A which is asecond information apparatus, a laboratory 404 and a goods order center406 to which goods order data is sent, a communication network calledthe Internet 408 which is connected to the television 400, thelaboratory 404 and the goods order center 406, respectively, and a homepersonal computer 410 of the customer A and a cellular phone 420 of acustomer B to which the Internet 408 is connected.

The components used may be the same as those disclosed in each of theembodiments described above. Therefore, detailed description will beomitted.

The television 400 receives broadcasting data (television signal) fromthe television station and displays a reproduced image on the displayscreen while recording image data of the displayed image on a storagedevice 401.

When there is a scene that the customer A wishes to obtain, the customerA preliminarily selects an image obtaining mode in the PDA 402 todesignate the scene (image frame) at an optional or desired selectiontiming, while watching the image displayed on the screen of thetelevision 400. After the scene is designated, image request dataincluding a transfer request is transmitted from the PDA 402 to thetelevision 400 side. The image request data includes ordereridentification information (customer ID), scene (image-frame)designating information and information concerning the destination(contact address) to which the transfer of the image data is requested.In addition to these types of information, the image request data mayalso include order information and message information from the customerA.

Inclusion of the information concerning the destination (contactaddress) to which the transfer of the image data is requested in theimage request data to be transmitted from the customer's PDA 402 to thetelevision 400 enables transfer to the home personal computer 410 viathe Internet 408 in case of lack of memory of the customer's PDA 402 orrequest for high quality image data. In addition, this is also effectivewhen the customer A that found a desired image or goods while watchingthe television 400 away from home, wants to carefully consider at homeor to give some information to his friend prior to actually placing anorder. The frame of the scene can be designated in the PDA 402 and theinformation concerning the destination of the image data can betransmitted to the television 400 side.

In this case, the timing information for the scene (frame) designationmay be temporarily stored on the PDA 402 side to transmit at a differenttiming the information concerning the destination to which the transferof the displayed scene image is requested. Alternatively, a set of thetiming information for the frame designation and the informationconcerning the destination in the transfer request may be transmittedwhen each frame is designated. Further, the destination may be set foreach frame image designated or for a plurality of frame images in abatched manner.

Upon receipt of the image request data from the PDA 402, the television400 reads out image data of the designated scene (frame) image from thestorage device 401 based on the scene (image-frame) designatinginformation in the received image request data. The image data istransmitted through the network to the destination designated based onthe information concerning the destination (contact address) included inthe received image request data, after the image related (accompanying)data (goods characteristic information), the order data and furtheroptionally the order information and the message information from thecustomer A have been added thereto.

Any information apparatus may be designated as the destination, andexamples include the home personal computer 410, and the cellular phone412, a PDA or a personal computer that his friend possesses. It isneedless to say that the customer A may designate his PDA 402 orcellular phone as the destination in the embodiment under consideration.

Further, the image data to be transferred from the television 400 to thedesignated destination may be the image displayed on the television 400per se or the reduced image thereof.

The image data to be transferred from the television 400 to thedesignated destination may be replaced by the data on the site to whichreference is made on the image displayed on the television 400. In thiscase, the designated destination side that received the data on the sitefor reference can obtain the image and its accompanying data by gettingaccess to the site.

If the customer A or B wants to place an order for an image or goods,the customer A or B places the order by transmitting from the designatedcontact apparatus, that is, the home personal computer 410 or thecellular phone 412, a set of the image data or goods data, its relatedinformation and the order data (including the customer ID, orderinformation and message information from the customer A) to thelaboratory 404 or the goods order center 406 as the goods order data.

Upon receipt of the goods order data, the laboratory 404 subjects thereceived image data to specified image processing steps in accordancewith the order data to thereby produce a print or a recording mediumhaving the image data recorded therein. On the other hand, the goodsorder center 406 delivers the ordered goods to each customer inaccordance with the goods order data.

In addition, in each of the embodiments described above, an accident ora trouble can be prevented by temporarily storing order information(goods order data) received from a customer at a laboratory or a goodsorder center and later transmitting information for confirming the orderto each customer for order confirmation.

Thus, it is preferable that the information for confirmation whichincludes goods order data and to which order transmitting routeinformation indicating a route taken for placing an order is added foreach order item is transmitted to a contact apparatus of each customerin accordance with a customer ID.

As described above in detail, according to each of the embodiments, acustomer can easily place an order for printing of a scene on a TV ormovie screen or an image actually taken with a camera, at an optional ordesired timing or for recording image data of the scene on a recordingmedium while watching the TV or movie screen. The customer can alsoplace an order for goods simply while watching an advertisement screenon a television or the like.

In each of the embodiments described above, an order was placed for aprint of an image displayed on a television or the like, a print of animage actually taken with a camera, a recording medium having its imagedata recorded therein, or goods on an advertisement screen of atelevision or the like. However, the present invention is not limitedthereto and at least one of various types of data including movingimage, voice, text and program may be ordered.

For example, moving images within a specified period of time (forexample α seconds) including the time at which a display screen of atelevision, a movie or a display was designated, to be more specific,moving images formed from a plurality of displayed images which includean image displayed at the designated time, or image data of all movingimages in one commercial may be obtained. Alternatively, a program perse for reproducing an execution screen in a game machine such as scenesof one stage may be obtained.

In the present invention, the image displayed on the display screen of adigital television includes not only a picture (image) received througha tuner from an ordinary telecast but also a picture (image) distributedthrough a communication network such as the Internet. Further, the imagedisplay device for displaying the images is not limited to the digitaltelevision but may also be a personal computer having in particular apicture display function.

The image processing system and the ordering system of the presentinvention has been described above in detail. It is needless to mentionthat the present invention is not limited to the above-mentionedembodiments but various improvements or alterations may be applied to itwithout departing from the spirit and the scope of the presentinvention.

As described above, according to the first aspect of the presentinvention, even if a plurality of subject persons exist, informationconcerning subject persons can be automatically composited with animage, which is convenient for obtaining the information concerning thesubject persons or arranging information in order. In particular, theimage processing system is very effective in the information exchangeamong participants in a party.

As also described above, according to the second aspect of the presentinvention, a customer can easily place an order for printing an image ofa scene at an optional or desired timing, or again, at a preset timingwhile watching the screen of a television or the like, or an order forgoods at a preset timing while watching an advertisement screen of thetelevision or the like.

1. An ordering system comprising: a first information apparatus havingan image photographing function; and a second information apparatus fortransmitting subject related information in image photographing to saidfirst information apparatus, wherein said first information apparatustransmits subject related information transmitted from said secondinformation apparatus and photographed image data to a predetermineddestination of transmission as print order data, and said predetermineddestination of transmission composites said subject related informationwith said photographed image or prints said subject related informationon the rear side of said photographed image to prepare a print orassociates said subject related information with said photographed imageto output them to a computer readable recording medium as image data,character data or voice data.
 2. The ordering system according to claim1, wherein said goods order data of the customer is temporarilyaccumulated, and information for confirmation with order transmittingroute information added to said goods order data is transmitted to saiddestination of communication of the customer for each order item basedon orderer identification information.
 3. An ordering system comprising:a first information apparatus having an image photographing function,and a second information apparatus for receiving photographed image dataand order data transmitted from said first information apparatus,wherein said second information apparatus adds subject relatedinformation to photographed image data and order data transmitted fromsaid first information apparatus to transmit them to a predetermineddestination of transmission, and said predetermined destination oftransmission composites said subject related information with saidphotographed image or prints said subject related information on therear side of said photographed image to prepare a print or associatessaid subject related information with said photographed image to outputthem to a computer readable recording medium as image data, characterdata or voice data.
 4. The ordering system according to claim 3, whereinsaid goods order data of the customer is temporarily accumulated, andinformation for confirmation with order transmitting route informationadded to said goods order data is transmitted to said destination ofcommunication of the customer for each order item based on ordereridentification information.